作者
Stephen A Goff, Darrell Ricke, Tien-Hung Lan, Gernot Presting, Ronglin Wang, Molly Dunn, Jane Glazebrook, Allen Sessions, Paul Oeller, Hemant Varma, David Hadley, Don Hutchison, Chris Martin, Fumiaki Katagiri, B Markus Lange, Todd Moughamer, Yu Xia, Paul Budworth, Jingping Zhong, Trini Miguel, Uta Paszkowski, Shiping Zhang, Michelle Colbert, Wei-lin Sun, Lili Chen, Bret Cooper, Sylvia Park, Todd Charles Wood, Long Mao, Peter Quail, Rod Wing, Ralph Dean, Yeisoo Yu, Andrey Zharkikh, Richard Shen, Sudhir Sahasrabudhe, Alun Thomas, Rob Cannings, Alexander Gutin, Dmitry Pruss, Julia Reid, Sean Tavtigian, Jeff Mitchell, Glenn Eldredge, Terri Scholl, Rose Mary Miller, Satish Bhatnagar, Nils Adey, Todd Rubano, Nadeem Tusneem, Rosann Robinson, Jane Feldhaus, Teresita Macalma, Arnold Oliphant, Steven Briggs
发表日期
2002/4/5
期刊
Science
卷号
296
期号
5565
页码范围
92-100
出版商
American Association for the Advancement of Science
简介
The genome of the japonica subspecies of rice, an important cereal and model monocot, was sequenced and assembled by whole-genome shotgun sequencing. The assembled sequence covers 93% of the 420-megabase genome. Gene predictions on the assembled sequence suggest that the genome contains 32,000 to 50,000 genes. Homologs of 98% of the known maize, wheat, and barley proteins are found in rice. Synteny and gene homology between rice and the other cereal genomes are extensive, whereas synteny with Arabidopsis is limited. Assignment of candidate rice orthologs to Arabidopsis genes is possible in many cases. The rice genome sequence provides a foundation for the improvement of cereals, our most important crops.
引用总数
学术搜索中的文章
SA Goff, D Ricke, TH Lan, G Presting, R Wang, M Dunn… - Science, 2002
